# Copyright 2020 Huawei Technologies Co., Ltd## Licensed under the Apache License, Version 2.0 (the "License");# you may not use this file except in compliance with the License.# You may obtain a copy of the License at## http://www.apache.org/licenses/LICENSE-2.0## Unless required by applicable law or agreed to in writing, software# distributed under the License is distributed on an "AS IS" BASIS,# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.# See the License for the specific language governing permissions and# limitations under the License.# ============================================================================import csv
import logging
import time
from collections import defaultdict

import numpy as np

from .ava_evaluation import object_detection_evaluation as det_eval
from .ava_evaluation import standard_fields


def det2csv(dataset, results, custom_classes):
    csv_results = []
    for idx in range(len(dataset)):
        video_id = dataset.video_infos[idx]['video_id']
        timestamp = dataset.video_infos[idx]['timestamp']
        result = results[idx]
        for label, _ in enumerate(result):
            for bbox in result[label]:
                bbox_ = tuple(bbox.tolist())
                if custom_classes is not None:
                    actual_label = custom_classes[label + 1]
                else:
                    actual_label = label + 1
                csv_results.append((
                    video_id,
                    timestamp,
                ) + bbox_[:4] + (actual_label, ) + bbox_[4:])
    return csv_results


# results is organized by class
def results2csv(dataset, results, out_file, custom_classes=None):
    if isinstance(results[0], list):
        csv_results = det2csv(dataset, results, custom_classes)

    # save space for float
    def to_str(item):
        if isinstance(item, float):
            return f'{item:.3f}'
        return str(item)

    with open(out_file, 'w') as f:
        for csv_result in csv_results:
            f.write(','.join(map(to_str, csv_result)))
            f.write('\n')


def print_time(message, start):
    print('==> %g seconds to %s' % (time.time() - start, message), flush=True)


def make_image_key(video_id, timestamp):
    """Returns a unique identifier for a video id & timestamp."""
    return f'{video_id},{int(timestamp):04d}'


def read_csv(csv_file, class_whitelist=None):
    """Loads boxes and class labels from a CSV file in the AVA format.

    CSV file format described at https://research.google.com/ava/download.html.

    Args:
        csv_file: A file object.
        class_whitelist: If provided, boxes corresponding to (integer) class
        labels not in this set are skipped.

    Returns:
        boxes: A dictionary mapping each unique image key (string) to a list of
        boxes, given as coordinates [y1, x1, y2, x2].
        labels: A dictionary mapping each unique image key (string) to a list
        of integer class lables, matching the corresponding box in `boxes`.
        scores: A dictionary mapping each unique image key (string) to a list
        of score values lables, matching the corresponding label in `labels`.
        If scores are not provided in the csv, then they will default to 1.0.
    """
    start = time.time()
    entries = defaultdict(list)
    boxes = defaultdict(list)
    labels = defaultdict(list)
    scores = defaultdict(list)
    reader = csv.reader(csv_file)
    for row in reader:
        assert len(row) in [7, 8], 'Wrong number of columns: ' + row
        image_key = make_image_key(row[0], row[1])
        x1, y1, x2, y2 = [float(n) for n in row[2:6]]
        action_id = int(row[6])
        if class_whitelist and action_id not in class_whitelist:
            continue

        score = 1.0
        if len(row) == 8:
            score = float(row[7])

        entries[image_key].append((score, action_id, y1, x1, y2, x2))

    for image_key in entries:
        # Evaluation API assumes boxes with descending scores
        entry = sorted(entries[image_key], key=lambda tup: -tup[0])
        boxes[image_key] = [x[2:] for x in entry]
        labels[image_key] = [x[1] for x in entry]
        scores[image_key] = [x[0] for x in entry]

    print_time('read file ' + csv_file.name, start)
    return boxes, labels, scores


def read_exclusions(exclusions_file):
    """Reads a CSV file of excluded timestamps.

    Args:
        exclusions_file: A file object containing a csv of video-id,timestamp.

    Returns:
        A set of strings containing excluded image keys, e.g.
        "aaaaaaaaaaa,0904",
        or an empty set if exclusions file is None.
    """
    excluded = set()
    if exclusions_file:
        reader = csv.reader(exclusions_file)
    for row in reader:
        assert len(row) == 2, 'Expected only 2 columns, got: ' + row
        excluded.add(make_image_key(row[0], row[1]))
    return excluded


def read_labelmap(labelmap_file):
    """Reads a labelmap without the dependency on protocol buffers.

    Args:
        labelmap_file: A file object containing a label map protocol buffer.

    Returns:
        labelmap: The label map in the form used by the
        object_detection_evaluation
        module - a list of {"id": integer, "name": classname } dicts.
        class_ids: A set containing all of the valid class id integers.
    """
    labelmap = []
    class_ids = set()
    name = ''
    class_id = ''
    for line in labelmap_file:
        if line.startswith('  name:'):
            name = line.split('"')[1]
        elif line.startswith('  id:') or line.startswith('  label_id:'):
            class_id = int(line.strip().split(' ')[-1])
            labelmap.append({'id': class_id, 'name': name})
            class_ids.add(class_id)
    return labelmap, class_ids


# Seems there is at most 100 detections for each image
def ava_eval(result_file,
             result_type,
             label_file,
             ann_file,
             exclude_file,
             verbose=True,
             custom_classes=None):

    assert result_type in ['mAP']

    start = time.time()
    categories, class_whitelist = read_labelmap(open(label_file))
    if custom_classes is not None:
        custom_classes = custom_classes[1:]
        assert set(custom_classes).issubset(set(class_whitelist))
        class_whitelist = custom_classes
        categories = [cat for cat in categories if cat['id'] in custom_classes]

    # loading gt, do not need gt score
    gt_boxes, gt_labels, _ = read_csv(open(ann_file), class_whitelist)
    if verbose:
        print_time('Reading detection results', start)

    if exclude_file is not None:
        excluded_keys = read_exclusions(open(exclude_file))
    else:
        excluded_keys = list()

    start = time.time()
    boxes, labels, scores = read_csv(open(result_file), class_whitelist)
    if verbose:
        print_time('Reading detection results', start)

    # Evaluation for mAP
    pascal_evaluator = det_eval.PascalDetectionEvaluator(categories)

    start = time.time()
    for image_key in gt_boxes:
        if verbose and image_key in excluded_keys:
            logging.info(
                'Found excluded timestamp in detections: %s.'
                'It will be ignored.', image_key)
            continue
        pascal_evaluator.add_single_ground_truth_image_info(
            image_key, {
                standard_fields.InputDataFields.groundtruth_boxes:
                np.array(gt_boxes[image_key], dtype=float),
                standard_fields.InputDataFields.groundtruth_classes:
                np.array(gt_labels[image_key], dtype=int)
            })
    if verbose:
        print_time('Convert groundtruth', start)

    start = time.time()
    for image_key in boxes:
        if verbose and image_key in excluded_keys:
            logging.info(
                'Found excluded timestamp in detections: %s.'
                'It will be ignored.', image_key)
            continue
        pascal_evaluator.add_single_detected_image_info(
            image_key, {
                standard_fields.DetectionResultFields.detection_boxes:
                np.array(boxes[image_key], dtype=float),
                standard_fields.DetectionResultFields.detection_classes:
                np.array(labels[image_key], dtype=int),
                standard_fields.DetectionResultFields.detection_scores:
                np.array(scores[image_key], dtype=float)
            })
    if verbose:
        print_time('convert detections', start)

    start = time.time()
    metrics = pascal_evaluator.evaluate()
    if verbose:
        print_time('run_evaluator', start)
    for display_name in metrics:
        print(f'{display_name}=\t{metrics[display_name]}')
    return {
        display_name: metrics[display_name]
        for display_name in metrics if 'ByCategory' not in display_name
    }
